Genoprotective Effects of Essential Oil Compounds Against Oxidative and Methylated DNA Damage in Human Colon Cancer Cells

Dinesh Thapa; Anthony J. Richardson; Béatrice Zweifel; R. John Wallace; Silvia W. Gratz

doi:10.1111/1750-3841.14665

Genoprotective Effects of Essential Oil Compounds Against Oxidative and Methylated DNA Damage in Human Colon Cancer Cells

Dinesh Thapa, Anthony J. Richardson, Béatrice Zweifel, R. John Wallace, Silvia W. Gratz^* (Corresponding Author)

^*Corresponding author for this work

The Rowett Institute of Nutrition and Health

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

Essential oils (EO) are widely used in foods as flavoring and preservative agents. Many of the biological activities of EO have been attributed to major essential oil compounds (EOC) but their direct interaction with colonic epithelial cells and their genotoxic and genoprotective effects are not well established. In this study, the cytotoxicity and genotoxicity of EOC including nerolidol, thymol, geraniol, methylisoeugenol, eugenol, linalool, and a commercial blend (Agolin) were determined. Furthermore, the genoprotective effects of EOC against oxidative and methylating damage were assessed using the comet assay in HT-29 colorectal adenocarcinoma cells. The majority of EOC were cytotoxic to HT-29 cells at or above 250 ppm after 24 hr exposure. At noncytotoxic doses, none of the EOC was genotoxic in the comet assay. Genoprotection against oxidative DNA damage was observed for nerolidol (at 62.5 ppm), thymol (at 12.5 ppm), geraniol, and methylisoeugenol (both at 125 ppm), as well as linalool and Agolin (both at 250 ppm). Thymol was the most protective compound against oxidative DNA damage and geraniol (at 125 ppm) also protected cells against methylating DNA damage. This study highlights the potential of EOC such as thymol to protect the colonic epithelium against oxidative DNA damage and geraniol against methylating DNA damage. Further in vivo studies are needed to confirm these findings for safety and efficacy to exploit their potential pharmaceutical or nutraceutical uses for colonic health.

Original language	English
Pages (from-to)	1979-1985
Number of pages	7
Journal	Journal of Food Science
Volume	84
Issue number	7
Early online date	17 Jun 2019
DOIs	https://doi.org/10.1111/1750-3841.14665
Publication status	Published - Jul 2019

Bibliographical note

The authors acknowledge the input form Dr. Graham Horgan of Biomathematics and Statistics Scotland for calculation of IC50 values. D.T. received an Industrial Studentship from the Univ. of Aberdeen and Agolin S.A., Switzerland, supplemented by the Scottish Overseas Research Student Awards Scheme (SORSAS). The Rowett Inst. is funded by the Rural and Environment Science and Analytical Services Division (RESAS) of the Scottish Government. Dr. Riccardo Losa is acknowledged for arranging Industrial funding for DT.

Keywords

comet assay
cytotoxicity
DNA damage
essential oils
genoprotection
HT-29 colorectal adenocarcinoma cells

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1111/1750-3841.14665Licence: Unspecified

Cite this

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title = "Genoprotective Effects of Essential Oil Compounds Against Oxidative and Methylated DNA Damage in Human Colon Cancer Cells",

abstract = "Essential oils (EO) are widely used in foods as flavoring and preservative agents. Many of the biological activities of EO have been attributed to major essential oil compounds (EOC) but their direct interaction with colonic epithelial cells and their genotoxic and genoprotective effects are not well established. In this study, the cytotoxicity and genotoxicity of EOC including nerolidol, thymol, geraniol, methylisoeugenol, eugenol, linalool, and a commercial blend (Agolin) were determined. Furthermore, the genoprotective effects of EOC against oxidative and methylating damage were assessed using the comet assay in HT-29 colorectal adenocarcinoma cells. The majority of EOC were cytotoxic to HT-29 cells at or above 250 ppm after 24 hr exposure. At noncytotoxic doses, none of the EOC was genotoxic in the comet assay. Genoprotection against oxidative DNA damage was observed for nerolidol (at 62.5 ppm), thymol (at 12.5 ppm), geraniol, and methylisoeugenol (both at 125 ppm), as well as linalool and Agolin (both at 250 ppm). Thymol was the most protective compound against oxidative DNA damage and geraniol (at 125 ppm) also protected cells against methylating DNA damage. This study highlights the potential of EOC such as thymol to protect the colonic epithelium against oxidative DNA damage and geraniol against methylating DNA damage. Further in vivo studies are needed to confirm these findings for safety and efficacy to exploit their potential pharmaceutical or nutraceutical uses for colonic health.",

keywords = "comet assay, cytotoxicity, DNA damage, essential oils, genoprotection, HT-29 colorectal adenocarcinoma cells",

author = "Dinesh Thapa and Richardson, {Anthony J.} and B{\'e}atrice Zweifel and Wallace, {R. John} and Gratz, {Silvia W.}",

note = "The authors acknowledge the input form Dr. Graham Horgan of Biomathematics and Statistics Scotland for calculation of IC50 values. D.T. received an Industrial Studentship from the Univ. of Aberdeen and Agolin S.A., Switzerland, supplemented by the Scottish Overseas Research Student Awards Scheme (SORSAS). The Rowett Inst. is funded by the Rural and Environment Science and Analytical Services Division (RESAS) of the Scottish Government. Dr. Riccardo Losa is acknowledged for arranging Industrial funding for DT. ",

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AU - Thapa, Dinesh

AU - Richardson, Anthony J.

AU - Zweifel, Béatrice

AU - Wallace, R. John

AU - Gratz, Silvia W.

N1 - The authors acknowledge the input form Dr. Graham Horgan of Biomathematics and Statistics Scotland for calculation of IC50 values. D.T. received an Industrial Studentship from the Univ. of Aberdeen and Agolin S.A., Switzerland, supplemented by the Scottish Overseas Research Student Awards Scheme (SORSAS). The Rowett Inst. is funded by the Rural and Environment Science and Analytical Services Division (RESAS) of the Scottish Government. Dr. Riccardo Losa is acknowledged for arranging Industrial funding for DT.

PY - 2019/7

Y1 - 2019/7

N2 - Essential oils (EO) are widely used in foods as flavoring and preservative agents. Many of the biological activities of EO have been attributed to major essential oil compounds (EOC) but their direct interaction with colonic epithelial cells and their genotoxic and genoprotective effects are not well established. In this study, the cytotoxicity and genotoxicity of EOC including nerolidol, thymol, geraniol, methylisoeugenol, eugenol, linalool, and a commercial blend (Agolin) were determined. Furthermore, the genoprotective effects of EOC against oxidative and methylating damage were assessed using the comet assay in HT-29 colorectal adenocarcinoma cells. The majority of EOC were cytotoxic to HT-29 cells at or above 250 ppm after 24 hr exposure. At noncytotoxic doses, none of the EOC was genotoxic in the comet assay. Genoprotection against oxidative DNA damage was observed for nerolidol (at 62.5 ppm), thymol (at 12.5 ppm), geraniol, and methylisoeugenol (both at 125 ppm), as well as linalool and Agolin (both at 250 ppm). Thymol was the most protective compound against oxidative DNA damage and geraniol (at 125 ppm) also protected cells against methylating DNA damage. This study highlights the potential of EOC such as thymol to protect the colonic epithelium against oxidative DNA damage and geraniol against methylating DNA damage. Further in vivo studies are needed to confirm these findings for safety and efficacy to exploit their potential pharmaceutical or nutraceutical uses for colonic health.

AB - Essential oils (EO) are widely used in foods as flavoring and preservative agents. Many of the biological activities of EO have been attributed to major essential oil compounds (EOC) but their direct interaction with colonic epithelial cells and their genotoxic and genoprotective effects are not well established. In this study, the cytotoxicity and genotoxicity of EOC including nerolidol, thymol, geraniol, methylisoeugenol, eugenol, linalool, and a commercial blend (Agolin) were determined. Furthermore, the genoprotective effects of EOC against oxidative and methylating damage were assessed using the comet assay in HT-29 colorectal adenocarcinoma cells. The majority of EOC were cytotoxic to HT-29 cells at or above 250 ppm after 24 hr exposure. At noncytotoxic doses, none of the EOC was genotoxic in the comet assay. Genoprotection against oxidative DNA damage was observed for nerolidol (at 62.5 ppm), thymol (at 12.5 ppm), geraniol, and methylisoeugenol (both at 125 ppm), as well as linalool and Agolin (both at 250 ppm). Thymol was the most protective compound against oxidative DNA damage and geraniol (at 125 ppm) also protected cells against methylating DNA damage. This study highlights the potential of EOC such as thymol to protect the colonic epithelium against oxidative DNA damage and geraniol against methylating DNA damage. Further in vivo studies are needed to confirm these findings for safety and efficacy to exploit their potential pharmaceutical or nutraceutical uses for colonic health.

KW - comet assay

KW - cytotoxicity

KW - DNA damage

KW - essential oils

KW - genoprotection

KW - HT-29 colorectal adenocarcinoma cells

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U2 - 10.1111/1750-3841.14665

DO - 10.1111/1750-3841.14665

M3 - Article

AN - SCOPUS:85067810815

SN - 0022-1147

VL - 84

SP - 1979

EP - 1985

JO - Journal of Food Science

JF - Journal of Food Science

IS - 7

ER -

Genoprotective Effects of Essential Oil Compounds Against Oxidative and Methylated DNA Damage in Human Colon Cancer Cells

Abstract

Bibliographical note

Keywords

UN SDGs

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Silvia Gratz

Cite this

Genoprotective Effects of Essential Oil Compounds Against Oxidative and Methylated DNA Damage in Human Colon Cancer Cells

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Profiles

Silvia Gratz

Cite this